A heat press including a body, a heat plate, a handle, a cover, a control compartment and an insulation portion. The body includes a first end and a second end. The heat plate is located proximate the first end of the body and is configured to engage ironable materials. The handle is located proximate the second end of the body and is configured to withstand forces from a user. The cover covers a portion of the body and the handle. The control compartment includes an electrical circuit, controls and a display. The control compartment is spaced away from and is at least indirectly electrically coupled to the heat plate. The insulation portion is positioned between the control compartment and the heat plate. The insulation portion includes a first layer of insulating material.
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1. A heat press comprising:
a heat plate configured to engage ironable materials;
a handle configured to withstand forces from a user, the handle including a substrate at least partially enclosed by a shell;
a control compartment spaced away from and at least indirectly electrically coupled to the heat plate; and
an insulation portion in direct contact with the substrate and positioned between the control compartment and the heat plate.
13. A heat press comprising:
a body including a first end and a second end;
a heat plate located proximate the first end of the body and configured to engage ironable materials;
a control compartment spaced away from and at least indirectly electrically coupled to the heat plate;
an insulation portion positioned between the control compartment and the heat plate;
a handle including a substrate and located proximate the second end of the body, the substrate in direct contact with the insulation portion; and
a cover covering a portion of the body and the handle.
18. A heat press comprising:
a body including a first end and a second end;
a heat plate including a metallic member at least partially embedded in a plate and located proximate the first end of the body, the heat plate configured to engage ironable materials;
a handle located proximate the second end of the body and configured to withstand forces from a user;
a substrate located within the handle;
a cover covering a portion of the body and the handle;
a control compartment spaced away from and at least indirectly electrically coupled to the heat plate;
an insulation portion positioned between the control compartment and the heat plate; and
an electrical circuit located in contact with the substrate.
2. The heat press of
3. The heat press of
4. The heat press of
5. The heat press of
the shell forms a cavity; and
at least a portion of the control compartment is located at least partially within the cavity.
6. The heat press of
8. The heat press of
9. The heat press of
11. The heat press of
the shell forms a cavity; and
an electrical circuit is at least partially disposed within the cavity and at least indirectly electrically coupled to the heat plate and the control compartment.
12. The heat press of
a first layer in direct contact with the substrate; and
a second layer located between the first layer and the heat plate.
14. The heat press of
15. The heat press of
16. The heat press of
17. The heat press of
a first layer in direct contact with the substrate; and
a second layer located between the first layer and the heat plate.
20. The heat press of
21. The heat press of
22. The heat press of
23. The heat press of
a first layer in direct contact with the substrate; and
a second layer located between the first layer and the heat plate.
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This U.S. patent application is a continuation of, and claims priority under 35 U.S.C. § 120 from, U.S. Pat. No. 16,777,449, filed on Jan. 30, 2020, which is a continuation of, and claims priority under 35 U.S.C. § 120 from, International Application No. PCT/US2018/044799, filed on Aug. 1, 2018, which claims priority to U.S. Provisional Application 62/540,021, filed on Aug. 1, 2017, the disclosures of which are considered part of the disclosure of this application and are hereby incorporated by reference in their entireties.
This disclosure relates to a heat press.
Heat presses were developed as a means to adhere iron-on materials to fabric. For example, to heat print logos or lettering onto t-shirts, hats or blankets. Heat press developments over the years pertain to industrial presses, whereby the presses must be capable of withstanding mass production printing. These presses are large, unwieldy, unsafe, and made with expensive materials. Therefore, there remains a need for a safe and cost effective heat press which is capable of providing uniform, consistent and optimal heat in a home-use setting.
One aspect of the disclosure provides a heat press including a body, a heat plate, a handle, a cover, a control compartment and an insulation portion. The body includes a first end and a second end. The heat plate is located proximate the first end of the body and is configured to engage ironable materials. The handle is located proximate the second end of the body and is configured to withstand forces from a user. The cover covers a portion of the body and the handle. The control compartment includes an electrical circuit, controls and a display. The control compartment is spaced away from and is communicatively coupled to the heat plate. The insulation portion is positioned between the control compartment and the heat plate. The insulation portion includes a first layer of insulating material.
Implementations of the disclosure may include one or more of the following optional features. In some implementations, the first layer of insulating material comprises glass fibers. In some examples, the insulation portion includes a second layer comprising glass reinforced nylon. The insulation portion may include a third layer of insulating material comprising glass fibers and also a fourth layer of insulating material comprising glass reinforced nylon. The second layer of insulating material thermally isolates the first layer of insulating material from the third layer of insulating material. The third layer of insulating material thermally isolates the second layer of insulating material from the fourth layer of insulating material.
In some configurations, the heat plate has a substantially square shape and includes a copper member at least partially embedded in an aluminum die-cast plate. The copper member has a serpentine geometry that includes a first portion and a second portion that are enantiomorphs. Furthermore, the heat plate includes at least one pressure point that limits the contact between the heat plate and the insulation portion.
In some examples, the cover is made of a thermoplastic and the handle includes a metal substrate at least partially enclosed by a plastic shell. The plastic shell forms a cavity for housing an electrical circuit at least indirectly electrically coupled to the heat plate and the control compartment. In some implementations, all of electrical components and controls are housed within the heat press and the metal substrate is in direct contact with only the fourth layer of insulating material.
Another aspect of the disclosure provides a heat press including a body, a heat plate, a control compartment, an insulation portion, a handle and a cover. The body includes a first end and a second end. The heat plate is located proximate the first end of the body and is configured to engage ironable materials. The control compartment includes an electrical circuit, controls and a display. The control compartment is spaced away from and is at least indirectly electrically coupled to the heat plate. The insulation portion is positioned between the control compartment and the heat plate. The insulation portion includes a first layer of insulating material. The handle includes a metal substrate and an electrical circuit communicatively coupled to the heat plate and the control compartment. The handle is located proximate the second end of the body and is configured to withstand forces from a user. The cover covers a portion of the body and the handle.
This aspect may include one or more of the following optional features. In some implementations, the first layer of insulating material comprises glass fibers. In some examples, the insulation portion includes a second layer comprising glass reinforced nylon.
In some configurations, the heat plate has a substantially square shape and includes a copper member at least partially embedded in an aluminum die-cast plate. In some examples, the cover is made of a thermoplastic and the handle includes a metal substrate and an electrical circuit communicatively coupled to the heat plate and the control compartment. In some implementations, all of electrical components and controls are housed within the heat press.
Another aspect of the disclosure provides a heat press including a body, a heat plate, a handle, a cover, a control compartment and an insulation portion. The heat plate includes a copper member at least partially embedded in an aluminum die-cast plate and is located proximate the first end of the body. The heat plate is configured to engage ironable materials. The handle is located proximate the second end of the body and is configured to withstand forces from a user. The cover covers a portion of the body and the handle. The control compartment includes an electrical circuit, controls and a display. The control compartment is spaced away from and is at least indirectly electrically coupled to the heat plate. The insulation portion is positioned between the control compartment and the heat plate. The insulation portion includes at least one layer of insulating material.
This aspect may include one or more of the following optional features. In some implementations, the handle includes a metal substrate and an electrical circuit communicatively coupled to the heat plate and control compartment. In some examples, all of the electrical components and controls are housed within the heat press.
The details of one or more implementations of the disclosure are set forth in the accompanying drawings and the description below. Other aspects, features, and advantages will be apparent from the description and drawings, and from the claims.
The disclosure will now be described, by way of example, with reference to the accompanying drawings, in which:
Referring to
In some examples, the cover 12 covers a portion of the body 11 and handle 16. The cover 12 is made of a thermoplastic with thermal resistance properties such as polycarbonate. The cover 12 forms an outer barrier of the heat press 10. The cover 12 shields the electrical components of the heat press 10. Additionally, the cover 12 protects a user of the heat press 10 from heat generated by the heat plate 18, whereby a user can safely touch the cover 12 during operation of the heat press 10.
Referring to
In some examples, once the heat plate 18 reaches its desired temperature, a user places the heat press 10 on top of a transfer paper logo 5 and ironable material 3, whereby the transfer paper logo 5 is positioned between the ironable material 3 and the heat plate 18. Subsequently, the user applies a downward force 4 onto the handle 16 which compresses the heat plate 18, transfer paper logo 5 and ironable material 3. The force 4 is applied for 1 to 60 seconds. Following, the heat press 10 is removed and the user is left with the transfer paper logo 5 adhered to the ironable material 3.
In some configurations, the heat press 10 includes an insulation portion 25 positioned between the heat plate 18 and control compartment 14. The heat press 10 is configured to be used in a household setting, thereby movability is critical to its design. All of the heat press's 10 electrical components and controls 19 are housed within the heat press 10. The insulation portion 25 provides protection to the user of the heat press 10 and also the electrical components and controls 19 from the high temperatures generated by the heat plate 18.
Referring to
Additionally, the heat press 10 includes a user hand clearance area 22. The user hand clearance area 22 is located beneath the handle 16. The user hand clearance area 22 provides the user with adequate clearance to firmly grab the handle 16.
Now referring to
In some examples, the heat press 10 has an electrical circuit 15 located within the control compartment 14 and another located with the handle 16. The electrical circuits 15 are at least indirectly electrically coupled to one another and also to the heat plate 18, controls 19 and display 17. The electrical circuits 15 are configured to include an arrangement of capacitors, resistors, inductors, integral signal and power traces and connections.
Moreover, the at least one electrical circuit 15 includes a processor, memory and software that effectively operate the heat press 10. In some examples, the at least one electrical circuit 15 are configured to include safety features. For example, upon the occurrence of the heat plate 18 reaching a temperature set by the user, the electrical circuit 15 will adjust the behavior of the heat plate 18 to maintain its temperature in order to avoid overheating and damage to the ironable materials 3. Additionally, if the heat plate 18 is heated for a duration of time, for example 30 minutes, the electrical circuit 15 will initiate a safety feature to automatically turn off the heat plate 18.
In some examples, the heat press 10 includes a metal substrate 20 located within the handle 16. In order to keep the heat press's 10 weight at a minimum, a majority of its components are made of plastic or thermoplastic. The metal substrate 20 provides the handle 16 support in order to withstand forces from the user.
Now referring to
In some configurations, the heat plate 18 includes two copper members 21. The materials and layout of the copper members 21 are critical to the heat plate's 18 ability to heat consistently and uniformly. The copper members 21 have a serpentine geometry. In some examples, the copper members 21 have a mirrored image layout, wherein the copper members 21 are separated by a longitudinal axis 40 located proximate to the midpoint of the heat plate 18. Moreover, if the copper member 21 on the right side of axis 40 is folded over the longitudinal axis 40 onto the copper member 21 on the left side of the axis 40, the layouts of the copper member 21 will be the same. Additionally, the copper members 21 are at least partially embedded in an aluminum die-cast plate 32. Furthermore, the copper members 21 include heating elements 31. The heating elements 31 are located at the ends of each copper member 21. The heating elements 31 are configured to receive electrical power and to heat the copper members 21.
Now referring to
In some examples, the insulation portion 25 includes multiple layers of insulation with thermal resistance properties. The layers are thermally isolated from one another. For example, the insulation portion 25 includes a first layer of insulating material 26 comprising a microporous material including glass fibers and a second layer of insulating material 27 comprising glass reinforced nylon, such as 85% Nylon, 15% glass fiber. Furthermore, the insulation portion 25 may include a third layer of insulating material 28 comprising a microporous material including glass fibers and a fourth layer of insulating material 29 comprising glass reinforced nylon, such as 85% Nylon, 15% glass fiber. Each of the layers that comprise the insulation portion 25 are 0 to 15 millimeters thick.
Now referring to
Referring to
In
A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the disclosure. Accordingly, other implementations are within the scope of the following claims. For example, the actions recited in the claims can be performed in a different order and still achieve desirable results.
Stopp, Grayson, Crisp, Thomas, Lin, Lk, Zhu, Carry
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Feb 03 2020 | CRISP, THOMAS | CRICUT, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 054416 | /0959 | |
Feb 06 2020 | LIN, LK | CRICUT, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 054416 | /0959 | |
Feb 11 2020 | STOPP, GRAYSON | CRICUT, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 054416 | /0959 | |
Mar 16 2020 | ZHU, CARRY | CRICUT, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 054416 | /0959 | |
Nov 19 2020 | Cricut, Inc. | (assignment on the face of the patent) | / | |||
Aug 04 2022 | CRICUT, INC | JPMORGAN CHASE BANK, N A , AS ADMINISTRATIVE AGENT | SECURITY INTEREST SEE DOCUMENT FOR DETAILS | 061102 | /0118 |
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